Uses of Class
org.orekit.ssa.metrics.FieldProbabilityOfCollision

Packages that use FieldProbabilityOfCollision

Package	Description
org.orekit.ssa.collision.shorttermencounter.probability.twod	Package specific to calculus assuming a 2D short-term encounter model.

Uses of FieldProbabilityOfCollision in org.orekit.ssa.collision.shorttermencounter.probability.twod

Methods in org.orekit.ssa.collision.shorttermencounter.probability.twod that return FieldProbabilityOfCollision

Modifier and Type	Method	Description
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	AbstractAlfriend1999.compute(T xm, T ym, T sigmaX, T sigmaY, T radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	AbstractShortTermEncounter1DNumerical2DPOCMethod.compute(Cdm cdm, T primaryRadius, T secondaryRadius, FieldUnivariateIntegrator<T> customIntegrator, int customMaxNbOfEval, double zeroThreshold)	Compute the probability of collision using an Orekit Conjunction Data Message.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	AbstractShortTermEncounter1DNumerical2DPOCMethod.compute(FieldOrbit<T> primaryAtTCA, FieldStateCovariance<T> primaryCovariance, T primaryRadius, FieldOrbit<T> secondaryAtTCA, FieldStateCovariance<T> secondaryCovariance, T secondaryRadius, FieldUnivariateIntegrator<T> customIntegrator, int customMaxNbOfEval, double zeroThreshold)	Compute the probability of collision using parameters necessary for creating a collision definition instance.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	AbstractShortTermEncounter1DNumerical2DPOCMethod.compute(FieldShortTermEncounter2DDefinition<T> encounterDefinition, FieldUnivariateIntegrator<T> customIntegrator, int customMaxNbOfEval, double zeroThreshold)	Compute the probability of collision using given collision definition.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	AbstractShortTermEncounter1DNumerical2DPOCMethod.compute(T xm, T ym, T sigmaX, T sigmaY, T radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
abstract <T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	AbstractShortTermEncounter1DNumerical2DPOCMethod.compute(T xm, T ym, T sigmaX, T sigmaY, T radius, FieldUnivariateIntegrator<T> customIntegrator, int customMaxNbOfEval)	Compute the probability of collision using arguments specific to the rotated encounter frame and custom numerical configuration.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	AbstractShortTermEncounter2DPOCMethod.compute(Cdm cdm, T combinedRadius, double zeroThreshold)	Compute the probability of collision using a Conjunction Data Message (CDM).
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	AbstractShortTermEncounter2DPOCMethod.compute(FieldOrbit<T> primaryAtTCA, FieldStateCovariance<T> primaryCovariance, FieldOrbit<T> secondaryAtTCA, FieldStateCovariance<T> secondaryCovariance, T combinedRadius, double zeroThreshold)	Compute the probability of collision using parameters necessary for creating a collision definition instance.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	AbstractShortTermEncounter2DPOCMethod.compute(FieldShortTermEncounter2DDefinition<T> encounter, double zeroThreshold)	Compute the probability of collision using given collision definition.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	Alfano2005.compute(T xm, T ym, T sigmaX, T sigmaY, T radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	Chan1997.compute(T xm, T ym, T sigmaX, T sigmaY, T radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
final <T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	Laas2015.compute(T xm, T ym, T sigmaX, T sigmaY, T radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	Patera2005.compute(T xm, T ym, T sigmaX, T sigmaY, T radius, FieldUnivariateIntegrator<T> customIntegrator, int customMaxNbOfEval)	Compute the probability of collision using arguments specific to the rotated encounter frame and custom numerical configuration.
default <T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	ShortTermEncounter2DPOCMethod.compute(Cdm cdm, T combinedRadius)	Compute the probability of collision using a Conjunction Data Message (CDM).
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	ShortTermEncounter2DPOCMethod.compute(Cdm cdm, T combinedRadius, double zeroThreshold)	Compute the probability of collision using a Conjunction Data Message (CDM).
default <T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	ShortTermEncounter2DPOCMethod.compute(Cdm cdm, T primaryRadius, T secondaryRadius)	Compute the probability of collision using a Conjunction Data Message (CDM).
default <T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	ShortTermEncounter2DPOCMethod.compute(FieldOrbit<T> primaryAtTCA, FieldStateCovariance<T> primaryCovariance, FieldOrbit<T> secondaryAtTCA, FieldStateCovariance<T> secondaryCovariance, T combinedRadius)	Compute the probability of collision using parameters necessary for creating a collision definition instance.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	ShortTermEncounter2DPOCMethod.compute(FieldOrbit<T> primaryAtTCA, FieldStateCovariance<T> primaryCovariance, FieldOrbit<T> secondaryAtTCA, FieldStateCovariance<T> secondaryCovariance, T combinedRadius, double zeroThreshold)	Compute the probability of collision using parameters necessary for creating a collision definition instance.
default <T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	ShortTermEncounter2DPOCMethod.compute(FieldOrbit<T> primaryAtTCA, FieldStateCovariance<T> primaryCovariance, T primaryRadius, FieldOrbit<T> secondaryAtTCA, FieldStateCovariance<T> secondaryCovariance, T secondaryRadius)	Compute the probability of collision using parameters necessary for creating a collision definition instance.
default <T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	ShortTermEncounter2DPOCMethod.compute(FieldShortTermEncounter2DDefinition<T> encounter)	Compute the probability of collision using given collision definition.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	ShortTermEncounter2DPOCMethod.compute(FieldShortTermEncounter2DDefinition<T> encounter, double zeroThreshold)	Compute the probability of collision using given collision definition.
<T extends CalculusFieldElement<T>> FieldProbabilityOfCollision<T>	ShortTermEncounter2DPOCMethod.compute(T xm, T ym, T sigmaX, T sigmaY, T radius)	Compute the probability of collision using arguments specific to the rotated encounter frame.